SU889088A1 - Apparatus for cleaning gases by neutralization - Google Patents

Description

(5) APPARATUS FOR GAS CLEANING BY NEUTRALIZATION

The invention relates to an apparatus for the absorption purification of gas by neutralization,

A neutralization gas cleaning apparatus is known, comprising a housing, an ejector atomizer, a centrifugal droplet separator consisting of a pipe with a vane swirler, and a device for introducing and withdrawing gas and liquid 1.

The lack of apparatus - low efficiency and secondary entrainment of particles.

The purpose of the invention is to increase the efficiency of trapping the dropping liquid formed in the neutralization process.

The goal is achieved by the fact that an apparatus for gas purification by neutralization, an on / night housing, an ejector nebulizer, a centrifugal droplet separator, a pipe arbor with a vortex vanes and an inlet and outlet device, gas and liquid, are connected to the pipe

an expansion chamber with a bottom in which a series of circumferentially arranged windows is provided, provided with guide walls mounted opposite them at a distance of 1.2-1.4 times the width of the windows, horizontal packages of walls, in the form of a cerMeHtoB and a conical partition connected with a tube, the bag of grids being located at a distance from the conical partition, and the device for gas extraction is made in the form of an annular gap between the wall of the housing and the guide partitions.

It is advisable to place the device for the withdrawal of liquid above the conical partition; the dimensions of the cells in the previous and subsequent packets of the grids should be performed with a 1: 2 ratio.

FIG. I shows an apparatus for the purification of gases by neutralization, a longitudinal section; FIG. 2 is a section A-A 3 of FIG. one; in fig. 3 section bb in fig. 1. The apparatus contains two working stages: absorption and drop catchers. The absorption chamber contains an ejector atomizer consisting of pipe 1 connected to col. 1 by a lecturer 2, into which an absorption solution is fed through pipe 3, and pipe k tangentially entering tank 5. The tank 5 in the lower part has a conical-shaped bottom 6 with a pipe 7. In the upper part, the tank 5 has a conical-shaped partition 8, into which the immersed pipe 9 is welded so that there is a gap of 0.75 between its lower end and the bottom 6 diam unit housing tra. 8 of the submerged pipe 9 are installed profiled blades TO (see FIG. 2), welded to the inner surface of the submerged pipe 9 and to the integral sleeve 11, in which grooves are made for the entry of the blade tips. An expansion chamber 12 with windows 13 located around the circumference is welded to the upper end of the submerged pipe 9. Expand the chamber has a bottom 1. A guide wall 15 is welded to the bottom expansion chamber 12. A partition wall 16 is welded to the bottom of the tank 6 at the bottom, having a nipple 17. The strips 18 are welded to the wall of the tank and the immersed pipe 9 ( Fig. 3), serving for fastening the packages of grids 19, horizontally arranged and made in the form of separate segments. The packages are installed so that the wall of the housing 16 above them forms the second guide partitions, and a cavity 20 forms below the packages. The apparatus works as follows. Exhaust gases enter pipeline 1, connected to a collector, into which an absorption solution is injected, which neutralizes harmful components contained in waste gas, then gas flows through pipeline k to tank 5, the tangential inlet of the pipeline ensures air twisting at the entrance to the tank 5, while the solid particles contained in the gas are deflected to the periphery of the tank and are collected in its lower part and then removed through the nozzle 7. The gas with the liquid droplets contained in it enters the immersed E. The profiled vanes 10 installed in the lower part of the pipe direct large drops of liquid to the walls of the pipe, through which the liquid is discharged into the distribution chamber due to the action of the velocity head. In this way, the first cleaning stage, performed in a centrifugal drip catcher, is carried out. From the immersion pipe 9, the gas flow enters the expansion chamber 12, while the gas flow with liquid particles in it is removed in the bottom 14 of a conical shape and, filling the volume of the expansion chamber, slows down its movement, the direction of the rotation velocity of the flow inside the chamber changes by 180. Then the air flow through the window 13, made in the expansion chamber 12, exits the chamber. The outflow of air is formed by the baffles 15 and the cylindrical wall of the housing 16, which also functions as a baffle. The baffles provide rotation of the flow, the direction of speed changes by another 180, while the gas flows over the packets of grids 19 horizontally installed in the housing 16, and the particles, because of inertial properties, move the direction into the cells of the packet of grids 19 and flow along them nit into the cavity 20. Due to the conical shape of the partition 8 of the tank 5 fluid -. the bone continuously flows through the pipe 17 into the drain line. Thus, in the proposed apparatus, there is a second cleaning stage, made in the form of a flow inertial drift catcher with three abrupt changes in the direction of the gas flow to separate the liquid droplets. In the apparatus, the effective trapping of droplet liquid from gas flows with a pulsating flow and a drop content of more than 10 g / m5 is provided by horizontally placed grid packages installed opposite the windows at a distance of 1.2-1.4 of their width, with cell sizes in the previous and After the grid, the pairs are 1: 2, forming a living section 55-60, and a constant removal of the caught liquid network from the gap between the body partition and the bottom surface of the package, equal to 0.5 of the package height.

Claims (3)

Invention Formula 1, Neutralization gas cleaning apparatus, comprising a housing, an ejector diffuser, a centrifugal droplet separator consisting of a pipe with a vane swirler, and an inlet and outlet device for gas and liquid, characterized in that in order to increase the efficiency of the i-drop capture; liquid generated during neutralization. The apparatus is equipped, connected to the pipe, with an expansion chamber with a bottom, in which a series of windows located around the circumference, equipped with guide partitions, installed at a distance of 1.2–1.4 of the window width, is made. horizontally arranged packages of grids in the form of segments, and a conical partition connected to the pipe, while the package of grids is located at a distance from the conical partition, and the device for gas extraction is made in the form of an annular gap by the housing wall and guide partitions. 2. The apparatus according to claim 1, characterized by the fact that the device for the withdrawal of fluid is located above the conical partition. 3. The apparatus according to claim 1, in accordance with claim 1, with the fact that the cell sizes in the previous and subsequent mesh packets are made with a 1: 2 ratio. Information sources, accepted during examination 1. Kapleulo vitepi and their use in gas cleaning. M., TsINTYkhimneftemash, 197, p. if5-46. 13 to